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- ===Definition through the integral=== Usually, the integral representation is used as definition. For <math>\Re(z)>-1</math>, define27 KB (3,925 words) - 18:26, 30 July 2019
- The substitution of into equation \(~ F(z\!+\!1)\!=\!\exp(F(z)/\mathrm e)~\) where \(x_0\) is solution of equation \(F(x_0)=1\).21 KB (3,175 words) - 23:37, 2 May 2021
- ...cians of the same University were not so arrogant and used the symbol of [[integral]] and the [[Moebius surface]] at their logo, see second picture of the figu ...sponding [[Abel function]] <math>\mathcal{X}</math>, satisfying the [[Abel equation]]25 KB (3,622 words) - 08:35, 3 May 2021
- ...[[natural tetration]] tet; [[natural pentation]] satisfies the [[transfer equation]] In this equation, the [[tetration]] \(\mathrm{tet}\) appears as the [[transfer function]].7 KB (1,090 words) - 18:49, 30 July 2019
- Superfactorial satisfies the [[transfer equation]] for integer values of the argument and with relatively simple integral18 KB (2,278 words) - 00:03, 29 February 2024
- '''Abel equation''' is [[functional equation]] that relates some known function (considered as [[transfer function]]) \( ===Transfer equation===4 KB (598 words) - 18:26, 30 July 2019
- can be presented in the form of the integral of divergence: ...at the assumption of the stationary action leads to the [[Lagrange–Euler equation]]9 KB (1,358 words) - 18:27, 30 July 2019
- '''Fourier transform''' is linear integral transform with the exponential [[kernel]]. If the integral converges, then, function \(B\) is called '''Fourier transform''' of functi11 KB (1,501 words) - 18:44, 30 July 2019
- ...called [[transfer function]], the holomorphic solution \(F\) of [[Transfer equation]] ...is called [[Abel function]] with respect to \(T\); it satisfies the [[Abel equation]]11 KB (1,565 words) - 18:26, 30 July 2019
- ...hrm {tet}\) or \(\mathrm {tet}_{\mathrm e}\); it satisfies the [[transfer equation]] ...tetration can be constructed for the holomorhix solution \( \varphi\) of equation14 KB (1,972 words) - 02:22, 27 June 2020
- '''Iterated integral''' of function \(f\) is function \(J^n f\) expressed with iteration of inte ...(and, in particular, fractional) values of \(n\), under condition that the integral converges. In this case, the expression \((x\!-\!t)^{n-1}\) is interpreted9 KB (1,321 words) - 18:26, 30 July 2019
- ...ations about [[tetration]] \(\mathrm{tet}_s\), it satisfies the [[transfer equation]]: ...f the precise evaluation of \(\mathrm{tet}_s\) through the Cauchi integral equation <ref name="moc1">5 KB (707 words) - 21:33, 13 July 2020
- '''Iterated Cauchi''' is algorithm of iterative solution of the [[Transfer equation]] ==The Cauchi integral==6 KB (987 words) - 10:20, 20 July 2020
- \(f=\arcsin(z)\) is holomorphic solution \(f\) of equation ==Integral representaitons==9 KB (982 words) - 18:48, 30 July 2019
- The additional factor in the integral representation of the Bessel transform can be eliminated, multiplying each, W.N.Everitt, H.Kalf. The Bessel differential equation and the Hankeltransform.8 KB (1,183 words) - 10:21, 20 July 2020
- ...n]] of zero order''' and also \(J_0\), is [[entire function]], solution of equation ==Integral representation==6 KB (913 words) - 18:25, 30 July 2019
- ...ion in eigenfunctions of the Dirichlet problem for the Bessel differential equation. The final equation by GNU can be written as follows:7 KB (1,063 words) - 18:25, 30 July 2019
- '''BesselK0''' or \(K_0\) is holomorphic function, solution \(f\) of equation The same equation (1) holds also for \(f(z)=\mathrm{BesselY0}(\mathrm i z)\), where [[Bessel3 KB (394 words) - 18:26, 30 July 2019
- solution \(f=f(z)\) of the Bessel equation with integral representation3 KB (445 words) - 18:26, 30 July 2019
- '''Bessel function''' referes to a solution \(f\) of the [[Bessel equation]] Due to singularity of the equation at \(z=0\), the regular solution should have specific behavior. This soluti13 KB (1,592 words) - 18:25, 30 July 2019
- ...x_n=\frac{\pi}{N} n\). For approximation of coefficeins \(a\), replace the integral with the finite sum: Comparison to equation (1) gives10 KB (1,447 words) - 18:27, 30 July 2019
- Term '''exact solution''' refers to some solution of certain equation(s), but also indicates some efficient way of the evaluation. Practically, t If deal with some [[ordinary differential equation]], and the solution is expressed in term of [[quadrature]]2 KB (351 words) - 15:00, 20 June 2013
- Also, [[AuZex]] satisfies the [[Abel equation]] Iterations of equation (3) gives the relations6 KB (899 words) - 18:44, 30 July 2019
- ===Integral=== Superpower function is solution \(F\) of the transfer equation \(T(F(z))=F(z\!+\!1)\),15 KB (2,495 words) - 18:43, 30 July 2019
- [[Zooming equation]] is tentative name for the equation The tentative name for the solution \(~f~\) of the [[zooming equation]] is [[zooming function]].10 KB (1,627 words) - 18:26, 30 July 2019
- ...file is supposed to be loaded in the working directory) and the [[Transfer equation]] for the exponential to base 10 as [[transfer function]]. // The integral is evaluated using the [[Gauss-Legendre]] quadrature formula; the nodes and2 KB (287 words) - 15:03, 20 June 2013
- [[Cauchi integral]] is used for evaluation. It is described in [[Mathematics of Computation]] The evaluation uses almost the same algorithm of the Cauchi integral <ref name=analuxp>5 KB (761 words) - 12:00, 21 July 2020
- The superfunction is holomorphic solution \(F\) of equation The abelfunction is solution of the Abel equation15 KB (2,166 words) - 20:33, 16 July 2023
- '''Participants''', who can easy distinguish integral from logarithm. Who can insert a new object into the equation, and only then begin to analyse, from what set is it? (Turns to the audienc4 KB (696 words) - 07:02, 1 December 2018
- The comparison with the First and Second equation in this section gives, that The integral above happen to be a little bit slow to evaluate, and the plot of function15 KB (2,303 words) - 18:47, 30 July 2019
- In this paper we will consider the tetration, defined by the equation \( F(z+1)= b^F(z)\) in the complex plane with \( F(0)=1\), for the case whe In this paper we will consider the tetration, defined by the equation \( F(z+1)= b^F(z)\) in the complex plane with \( F(0)=1\), for the case whe7 KB (1,082 words) - 07:03, 13 July 2020
- The [[Superfunction]] \(F\) is solution of the [[Transfer equation]] ...primary implementation of [[Tetration to base 2]] is based on the [[Cauchi integral]]6 KB (845 words) - 17:10, 23 August 2020
- Each of them is real-holomorphic and satisfies equation or cannot distinguish an integral from a logarithm;<br>10 KB (1,491 words) - 18:09, 11 June 2022